/**
\mainpage Main Page
The Parola Library
------------------
The Parola library is implemented to work with the MD_MAX2XX library. It 
depends on the MD_MAX72xx library for hardware control and will run on all 
hardware supported by that library. The MD_MAX72XX library can be found 
[here] (http://github.com/MajicDesigns/MAX72xx).

This software library implements functions to simplify the implementation 
of text special effects on the Parola display.
- Left, right or center text justification in the display field.
- Text scrolling, text entering and exit effects.
- Control display parameters and animation speed.
- Multiple virtual displays (zones) in each string of LED modules.
- User defined fonts and/or individual characters substitutions.
- Double height displays.

The latest copy of the Parola Software and hardware files can be found 
at the [Parola website] (http://github.com/MajicDesigns/Parola).

![The final product with 8 modules connected together] (Working_Display.jpg "Working System")

System Components
-----------------
- Hardware - documentation for supported hardware found in the MD_MAX72xx library documentation.
- \subpage pageSoftware

Revision History 
----------------
Nov 2016 - version 2.5
- Added ambulance example
- Updated branding to MD_ diamond
- Added README.md file

Jan 2016 - version 2.4
- Added dynamic zone example
- Added synchZoneStart() method to allow zones start times to be synchronised
- Added double height character example by Arek00
- Modified all examples to conditionally include <SPI.h> 
- Added double height character example (v2) using Font file created by MD_MAX72xx font builder
- Added double height clock example
- Added HelloWorld example - simplest working code
- Added FADE animation
- Adjusted documentation structure
- Added #defines ENA_* for granular selection of animations (memory saving)

Aug 2015 - version 2.3
- Added set/getScrollSpacing() methods and associated Scrolling_Spacing example
- Added set/getZoneEffect with FLIP_LR and FLIP_UD, with associated Zone_Mirror example
- Added MESH animation
- Fixed minor bugs and documentation

April 2015 - version 2.2
- Added Scrolling_ML example
- Added Zone_Mesg example
- Overloaded displayClear() for single zone clear
- Fixed bug in SLICE effect when text was too long for display

February 2015 - version 2.1
- Fixed small animation problems with SLICE and SCAN_VERT
- Fixed PROGMEM error compiling with IDE version 1.5.7

March 2014 - version 2.0
- Mods to accommodate revised font handling in MD_MAX72xx library
 + Users can now provide a user defined font PROGMEM data table
 + User code can provide individual character override for equivalent font character
- Additional animations 
 + SCAN_HORIZ, SCAN_VERT
 + GROW_UP, GROW_DOWN
 + SCROLL_UP_LEFT, SCROLL_UP_RIGHT, SCROLL_DOWN_LEFT, SCROLL_DOWN_RIGHT
- Implemented Zoned scrolling
 + Multiple independent zoned scrolling areas in one display.
 + Each zone has all character attributes (font, alignment, speed, pause, etc).
- textEffect_t and textAlign_t taken out of the class definition. Requires legacy code mods.
- Backward compatible with library version 1.x code.

September 2013 - version 1.1
- Mods to accommodate changes to hardware SPI implementation in MD_MAX72xx library

June 2013 - version 1.0
- New library

Copyright
---------
Copyright (C) 2013-2016 Marco Colli. All rights reserved.

This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.

This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA

\page pageSoftware Parola Library
The Parola Library
------------------
The Parola library is implemented using the MD_MAX72xx library for hardware 
control. The library implements functions to simplify the implementation 
of text special effects on the LED matrix.
- Text left, right or center justification in the display
- Text scrolling, appearance and disappearance effects
- Control display parameters and animation speed
- Support for hardware SPI interface
- Multiple virtual displays (zones) in each string of LED modules
- User defined fonts and/or individual characters substitutions

### External Dependencies
- Parola uses the MD_MAX72xx library for hardware level control primitives. 
The latest copy of this library can be found 
[here] (http://github.com/MajicDesigns/MAX72xx).

___

Display Zones
-------------
A matrix display can be treated as a single contiguous set of modules or it can be 
split into multiple 'virtual' displays (zones). Prior to version 2.0 of the library,
each display was effectively a single zone.

A zone is a contiguous subset of one or more display modules (LED matrices) that has all 
the attributes of a display - animation, speed, font, spacing, etc. This allows complex 
displays to be created. For example, one part can show relatively static text while a 
different one has animation and movement.

For backward compatibility, all the methods from version 1 remain. If the new library 
is compiled with older user source code, the library defaults to using a single zone 
for the whole display. Zone-aware functions have an added parameter to specify the zone 
to which the method invocation applies. Methods invoked without specifying a zone (such 
as set*()) usually have their effect applied to all zones.
___

Fonts
-----
The standard MD_MAX72xx library font can be substituted with a user font definition conforming
to the font encoding rules in the MD_MAX72XX documentation. New fonts can be designed with the
the MD_MAX72xx font builder.

Each zone can have its own substituted font. The default font can be reselected for the zone by
specifying a NULL font table pointer.
___

User Characters
---------------
Individual characters can be substituted for user character definitions. These can be added and
deleted to individual zones as required.

The character data is the same format as a single character from the font definition file,
and is held in a local lookup table that is parsed before loading the defined font character.
If a character is specified with a code the same as an existing character, the existing data
will be substituted for the new data.

ASCII 0 character ('\0') cannot be substituted as this denotes the end of string character
for C++ and cannot be used in an actual string.

The library only retains a pointer to the user data definition, so the data must remain in scope.
Also, any changes to the data storage in the calling program will be reflected by the library the
next time the character is used.
___

Conditional Compilation Switches
--------------------------------
The library allows the run time code to be tailored through the use of compilation
switches. The compile options start with ENA_ and are documented in the section
related to the main header file MD_Parola.h.

_NOTE_: Compile switches must be edited in the library header file. Arduino header file
'mashing' during compilation makes the setting of these switches from user code
completely unreliable.
___

Implementing New Text Effects
-----------------------------
Each of the selected text effects is implemented as a function. This makes it easy to add new
effects:
- Choose a name for the effect and add it to the textEffect_t enumerated type.
- Clone an existing method and modify it according to the guidelines below.
- Add the function prototype for the new effect to the MD_PZone class definition in the MD_Parola.h file.
- Modify the zoneAnimate() method in MD_PZone.cpp to invoke the new method. 

###New Text Effects
The effects functions are implemented as finite state machines that are called with the 
frequency set by the setSpeed() method. The class variable _fsmState holds the state from 
the last invocation of an effect method.

An effect method can work in one of 2 ways:
- *Additive*: where the animation frames are incrementally built up to the initial display.
With this method, the function will need to use the getFirstChar() and getNextChar() methods 
to build up the displayed text, column by column.
- *Subtractive*: where the final displayed text is placed in the buffer using the commonPrint() 
method and the elements that are not visible at that stage of the animation are removed.

Which algorithm is used depends on the type animation and what is convenient for the coder.
Examples of both are found in the supplied library text effects.

Each effect method is implemented in 2 parts. One part implements the text move IN to the display 
(method parameter bIn is true) and the other when the text is moving OUT of the display (bIn false).
Because the IN and OUT effects can be different for a display cycle, the method must not assume 
that the first part was ever called. The first phase should always end with the text in its 
display position (depending on the alignment specified) and the second phase should assume the text 
is in that position when called. Text position parameters are held in the class variables _limitLeft and  
_limitRight found in the library header file.

The first phase starts with _fsmState set to INITIALISE and ends when the state is set to PAUSE 
within the effect method. The second phase starts with a PAUSE state and ends when the state is 
set to END by the method.  Aside from the INITIALISE state (set by the displayReset() method), 
all other state changes are under the control of the effect functions. Delays between frames and 
the pause between IN and OUT are handled outside of the effect method.
___

Coding Tips
-----------
+ The MD_MAX72XX library sets the origin for the LED matrix at the top right of the display. This 
makes the leftmost text column a higher column number that the far right column. Sometimes this 
is not intuitive when coding and is worth remembering. Rows are numbered from top to bottom, 0-7.

+ Ensure that a new effect is tested in combination with other effects to make sure that transitions 
are smooth and the IN and OUT effects combine well. Common errors are misaligned entry compared to 
exit, with causes a small jump in the text position when the effects are combined.

+ Display update times grow proportionally with the number of modules in a display, so some timing 
parameters may need to adapt. Hardware SPI runs approximately 10 times faster and the delay 
increase is not appreciable with up to 12 modules. For the arbitrary pin outs, using 
shiftout(), a 6 module chain updates in approximately 14ms on an Uno, while a 12 module display 
takes around 25ms. Most of the time taken is to physically update the display, as animating frames 
takes about 1-2ms to update in the MD_MAX72XX display buffers.
*/
#ifndef _MD_PAROLA_H
#define _MD_PAROLA_H

#include <Arduino.h>
#include <MD_MAX72xx.h>
/**
 * \file
 * \brief Main header file for the MD_Parola library
 */

// Granular selection of animations to include in the library
// If an animation class is not used at all some memory savings can be made
// by excluding the animation code.
#define ENA_MISC    1   ///< Enable miscellaneous animations
#define ENA_WIPE    1   ///< Enable wipe type animations
#define ENA_SCAN    1   ///< Enable scanning animations
#define ENA_SCR_DIA 1   ///< Enable disgonal scrolling animation
#define ENA_OPNCLS  1   ///< Enable open and close scan effects
#define ENA_GROW    1   ///< Enable grow effects

// Miscellaneous defines
#define	ARRAY_SIZE(x)	(sizeof(x)/sizeof(x[0]))	///< Generic macro for obtaining number of elements of an array

class MD_Parola;

/**
* Text alignment enumerated type specification.
*
* Used to define the display text alignment and to specify direction for 
* scrolling and animations. In the situation where LEFT AND RIGHT are the only sensible 
* options (eg, text scrolling direction), CENTER will behave the same as LEFT.
*/
enum textPosition_t 
{
	LEFT,	///< The leftmost column for the first character will be on the left side of the display
	CENTER,	///< The text will be placed with equal number of blank display columns either side
	RIGHT	///< The rightmost column of the last character will be on the right side of the display
};

/**
* Text effects enumerated type specification.
*
* Used to define the effects to be used for the entry and exit of text in the display area.
*/
enum textEffect_t
{
  NO_EFFECT,		///< Used as a place filler, executes no operation
  PRINT,	  		///< Text just appears (printed)
  SCROLL_UP,		///< Text scrolls up through the display
  SCROLL_DOWN,	///< Text scrolls down through the display
  SCROLL_LEFT,	///< Text scrolls right to left on the display
  SCROLL_RIGHT,	///< Text scrolls left to right on the display
#if ENA_MISC
  SLICE,		  	///< Text enters and exits a slice (column) at a time from the right
  MESH,         ///< Text enters and exits in columns moving in alternate direction (U/D)
  FADE,         ///< Text enters and exits by fading from/to 0 and intensity setting
  DISSOLVE,		  ///< Text dissolves from one display to another
  BLINDS,			  ///< Text is replaced behind vertical blinds
#endif //ENA_MISC
#if ENA_WIPE
  WIPE,			    ///< Text appears/disappears one column at a time, looks like it is wiped on and off
  WIPE_CURSOR,	///< WIPE with a light bar ahead of the change
#endif  // ENA_WIPES
#if ENA_SCAN
  SCAN_HORIZ,		///< Scan one column at a time then appears/disappear at end
  SCAN_VERT,		///< Scan one row at a time then appears/disappear at end
#endif // ENA_SCAN
#if ENA_OPNCLS
  OPENING,		  ///< Appear and disappear from the center of the display, towards the ends
  OPENING_CURSOR,	///< OPENING with light bars ahead of the change
  CLOSING,		  ///< Appear and disappear from the ends of the display, towards the middle
  CLOSING_CURSOR,	///< CLOSING with light bars ahead of the change
#endif // ENA_OPNCLS
#if ENA_SCR_DIA
  SCROLL_UP_LEFT,		///< Text moves in/out in a diagonal path up and left (North East)
  SCROLL_UP_RIGHT,	///< Text moves in/out in a diagonal path up and right (North West)
  SCROLL_DOWN_LEFT,	///< Text moves in/out in a diagonal path down and left (South East)
  SCROLL_DOWN_RIGHT,///< Text moves in/out in a diagonal path down and right (North West)
#endif // ENA_SCR_DIA
#if ENA_GROW
  GROW_UP,		  ///< Text grows from the bottom up and shrinks from the top down 
  GROW_DOWN,		///< Text grows from the top down and and shrinks from the bottom up 
#endif // ENA_GROW
};

/**
* Zone effect enumerated type specification.
*
* Used to define the effects to be used for text in the zone.
* 
* The FLIP_UD and FLIP_LR effects are specifically designed to allow rectangular shaped display 
* modules (like Parola or Generic types) to be placed in an inverted position to allow all matrices
* to be tightly packed into a 2 line display. One of the lines must be flipped horizontally and vertically
* to remain legible in this configuration.
*/
enum zoneEffect_t
{
	FLIP_UD,	///< Flip the zone Up to Down (effectively upside down). Works with all textEffect_t values
	FLIP_LR,	///< Flip the zone Left to Right (effectively mirrored). Does not work with textEffect_t types SLICE, SCROLL_LEFT, SCROLL_RIGHT
};

/**
 * Zone object for the Parola library.
 * This class contains the text to be displayed and all the attributes for the zone.
 */
class MD_PZone 
{
public:
  /** 
   * Class Constructor.
   *
   * Instantiate a new instance of the class. 
   */
	MD_PZone(void);

  /** 
   * Initialize the object.
   *
   * Initialize the object data. This will be called to initialize 
   * new data for the class that cannot be done during the object creation.
   *
   * \param p	pointer to the parent object for this zone.
   */
	void begin(MD_MAX72XX *p);

  /** 
   * Class Destructor.
   *
   * Release allocated memory and does the necessary to clean up once the object is
   * no longer required.
   */
	~MD_PZone(void);

  //--------------------------------------------------------------
  /** \name Methods for core object control.
   * @{
   */
  /** 
   * Animate the zone.
   *
   * Animate using the currently specified text and animation parameters. 
   * This method is invoked from the main Parola object.
   * 
   * \return bool	true if the zone animation has completed, false otherwise.
   */
	bool zoneAnimate(void);

  /** 
   * Get the completion status.
   *
   * Return the current completion status for the zone animation.
   * 
   * See comments for the MD_Parola getZoneStatus() method.
   *
   * \return bool	true if the zone animation is completed
   */
	bool getStatus(void) { return (_fsmState == END); }

  /** 
   * Clear the zone.
   *
   * See comments for the MD_Parola namesake method.
   * 
   * \return No return value.
   */
	inline void zoneClear(void) { _MX->clear(_zoneStart, _zoneEnd); if (_inverted) _MX->transform(_zoneStart, _zoneEnd, MD_MAX72XX::TINV); };

  /**
   * Reset the current zone animation to restart.
   *
   * See comments for the MD_Parola namesake method.
   *
   * \return No return value.
   */
	inline void zoneReset(void) { _fsmState = INITIALISE; };

  /** 
   * Suspend or resume zone updates.
   *
   * See comments for the MD_Parola namesake method.
   * 
   * \param b	boolean value to suspend (true) or resume (false).
   * \return No return value.
   */
	inline void zoneSuspend(bool b) { _suspend = b; };

  /**
   * Set the start and end parameters for a zone.
   *
   * See comments for the MD_Parola namesake method.
   *
   * \param zStart	the first module number for the zone [0..numZones-1].
   * \param zEnd	the last module number for the zone [0..numZones-1].
   */
	inline void setZone(uint8_t zStart, uint8_t zEnd) { _zoneStart = zStart; _zoneEnd = zEnd; };

  /** @} */
  //--------------------------------------------------------------
  /** \name Support methods for visually adjusting the display.
   * @{
   */

  /** 
   * Get the zone inter-character spacing in columns.
   * 
   * \return the current setting for the space between characters in columns.
   */
	inline uint8_t getCharSpacing(void) { return _charSpacing; };

  /**
  * Get the zone brightness.
  *
  * Get the intensity (brightness) of the display.
  *
  * \return The intensity setting.
  */
  inline uint8_t getIntensity() { return _intensity; };

  /**
   * Get the zone current invert state.
   * 
   * See the setInvert() method.
   *
   * \return the inverted boolean value.
   */
	inline bool getInvert(void) { return _inverted; };

  /** 
   * Get the zone pause time.
   * 
   * See the setPause() method.
   *
   * \return the pause value in milliseconds.
   */
	inline uint16_t getPause(void) { return _pauseTime; };

/** 
   * Get the horizontal Scroll spcing.
   * 
   * See the setScrollSpacing() method
   * 
   * \return the space between message in columns.
   */
	inline uint16_t getScrollSpacing(void) { return _scrollDistance; };

  /** 
   * Get the zone animation speed.
   * 
   * See the setSpeed() method
   * 
   * \return the speed value.
   */
	inline uint16_t getSpeed(void) { return _tickTime; };

  /**
  * Get the zone animation start time.
  *
  * See the setSynchTime() method
  *
  * \return the internal time reference.
  */
  inline uint32_t getSynchTime(void) { return _lastRunTime; }

  /**
   * Get the current text alignment specification.
   * 
   * \return the current text alignment setting.
   */
	inline textPosition_t getTextAlignment(void) { return _textAlignment; };

  /** 
   * Get the value of specified display effect.
   *
   * The display effect is one of the zoneEffect_t types. The returned value will be 
   * true if the attribute is set, false if the attribute is not set.
   * 
   * \param ze	the required text alignment.
   * \return true if the value is set, false otherwise.
   */
  boolean getZoneEffect(zoneEffect_t ze);

  /** 
   * Set the zone inter-character spacing in columns.
   * 
   * Set the number of blank columns between characters when they are displayed.
   * 
   * \param cs	space between characters in columns.
   * \return No return value.
   */
	inline void setCharSpacing(uint8_t cs) { _charSpacing = cs; };

  /** 
   * Set the zone brightness.
   * 
   * Set the intensity (brightness) of the display.
   * 
   * \param intensity	the intensity to set the display (0-15).
   * \return No return value.
   */
  inline void setIntensity(uint8_t intensity) { _intensity = intensity; _MX->control(_zoneStart, _zoneEnd, MD_MAX72XX::INTENSITY, _intensity); };

  /** 
   * Invert the zone display.
   * 
   * Set the display to inverted (ON LED turns OFF and vice versa).
   * 
   * \param invert	true for inverted display, false for normal display
   * \return No return value.
   */
	inline void setInvert(uint8_t invert) { _inverted = invert; };

  /** 
   * Set the pause between ENTER and EXIT animations for this zone.
   * 
   * Between each entry and exit, the library will pause by the number of milliseconds
   * specified to allow the viewer to read the message. For continuous scrolling displays
   * this should be set to the same value as the display speed.
   *
   * \param pause	the time, in milliseconds, between animations.
   * \return No return value.
   */
	inline void setPause(uint16_t pause) { _pauseTime = pause; };

  /** 
   * Set the horizontal scrolling distance between messages.
   * 
   * When scrolling horizontally, the distance between the end of one message and the
   * start of the next can be set using this method. Normal operation is for the message 
   * to be fully off the display before the new message starts.
   * Set to zero for default behavior.
   *
   * \param space	the spacing, in columns, between messages; zero for default behaviour..
   * \return No return value.
   */
	inline void setScrollSpacing(uint16_t space) { _scrollDistance = space; };

  /** 
   * Set the zone animation frame speed.
   * 
   * The speed of the display is the 'tick' time between animation frames. The lower this time 
   * the faster the animation; set it to zero to run as fast as possible.
   * 
   * \param speed	the time, in milliseconds, between animation frames.
   * \return No return value.
   */
	inline void setSpeed(uint16_t speed) { _tickTime = speed; };

  /**
  * Set the zone animation start time.
  *
  * Each zone animation has an associated start time. The start time
  * defaults to the time when the zone is initialised. This method allows
  * synchronisation between zones by setting the same start time. Should be
  * used in conjunction with the getSynchTime() method as the return value
  * should only be treated as an internal reference and arbitrary values
  * will result in irregular behaviour.
  *
  * \param zt	the required start time.
  * \return No return value.
  */
  inline void setSynchTime(uint32_t zt) { _lastRunTime = zt; }

  /**
   * Set the text alignment within the zone.
   *
   * Text alignment is specified as one of the values in textPosition_t.
   * 
   * \param ta	the required text alignment.
   * \return No return value.
   */
	inline void setTextAlignment(textPosition_t ta) { _textAlignment = ta; };

  /** 
   * Set the pointer to the text buffer for this zone.
   *
   * Sets the text buffer to be a pointer to user data. 
   * See the comments for the namesake method in MD_Parola.
   * 
   * \param pb	pointer to the text buffer to be used.
   * \return No return value.
   */
	inline void setTextBuffer(char *pb) { _pText = pb; };

  /**
   * Set the entry and exit text effects for the zone.
   *
   * See the comments for the namesake method in MD_Parola.
   *
   * \param	effectIn	the entry effect, one of the textEffect_t enumerated values.
   * \param	effectOut	the exit effect, one of the textEffect_t enumerated values.
   * \return No return value.
   */
	inline void setTextEffect(textEffect_t effectIn, textEffect_t effectOut) { _effectIn = effectIn, _effectOut = effectOut; };

  /** 
   * Set the zone display effect.
   *
   * The display effect is one of the zoneEffect_t types, and this will be set (true) or 
   * reset (false) depending on the boolean value. The resulting zone display will be
   * modified as per the required effect.
   * 
   * \param b set the value if true, reset the value if false
   * \param ze	the required text alignment.
   * \return No return value.
   */
  void setZoneEffect(boolean b, zoneEffect_t ze);

  /** @} */
  //--------------------------------------------------------------
  /** \name Support methods for fonts and characters.
   * @{
   */

  /** 
   * Add a user defined character to the replacement list.
   * 
   * Add a replacement characters to the user defined list. The character data must be 
   * the same as for a single character in the font definition file. If a character is 
   * specified with a code the same as an existing character the existing data will be 
   * substituted for the new data. A character code of 0 is illegal as this denotes the 
   * end of string character for C++ and cannot be used in an actual string.
   * The library does not copy the in the data in the data definition but only retains 
   * a pointer to the data, so any changes to the data storage in the calling program will
   * be reflected in the library.
   * 
   * \param code	ASCII code for the character data.
   * \param data	pointer to the character data.
   * \return true of the character was inserted in the substitution list.
   */
	bool addChar(uint8_t code, uint8_t *data);

  /** 
   * Delete a user defined character to the replacement list.
   * 
   * Delete a replacement character to the user defined list. A character code of 0 is 
   * illegal as this denotes the end of string character for C++ and cannot be used in 
   * an actual string.
   * 
   * \param code	ASCII code for the character data.
   * \return true of the character was found in the substitution list.
   */
	bool delChar(uint8_t code);

  /** 
   * Set the display font.
   * 
   * See comments for the namesake Parola method.
   * 
   * \param fontDef	Pointer to the font definition to be used.
   * \return No return value.
   */
	inline void setZoneFont(MD_MAX72XX::fontType_t *fontDef) { _fontDef = fontDef; };

  /** @} */
		
private:
   /***
    *  Finite State machine states enumerated type.
	*/
	enum fsmState_t 
	{
		INITIALISE,		  ///< Initialize all variables
		GET_FIRST_CHAR,	///< Get the first character
		GET_NEXT_CHAR,	///< Get the next character
		PUT_CHAR,		    ///< Placing a character
		PUT_FILLER,		  ///< Placing filler (blank) columns 
		PAUSE,			    ///< Pausing between animations
		END				      ///< Display cycle has completed
	};

  /***
    *  Structure for list of user defined characters substitutions.
	*/
	typedef struct charDef
	{
		uint8_t	code;	  ///< the ASCII code for the user defined character
		uint8_t	*data;	///< user supplied data
		charDef *next;	///< next in the list
	};

	MD_MAX72XX	*_MX;	///< Pointer to the parent passed in at begin()
	
	// Time and speed controlling data and methods
	bool		_suspend;		// don't do anything
	uint32_t	_lastRunTime;	// the millis() value for when the animation was last run
	uint16_t	_tickTime;		// the time between animations in milliseconds
	uint16_t	_pauseTime;		// time to pause the animation between 'in' and 'out'

	// Display control data and methods
	fsmState_t	_fsmState;		// fsm state for all FSMs used to display text
	uint16_t	_textLen;		// length of current text in columns
	int16_t		_limitLeft;		// leftmost limit for the current display effect
	int16_t		_limitRight;	// rightmost limit for the current display effect
	bool		_limitOverflow;	// true if the text will overflow the display
	textPosition_t	_textAlignment;	// current text alignment
	textEffect_t	_effectIn;	// the effect for text entering the display
	textEffect_t	_effectOut;	// the effect for text exiting the display
	bool		_moveIn;		// animation is moving IN when true, OUT when false
	bool		_inverted;		// true if the display needs to be inverted
    uint16_t    _scrollDistance;  // the space in columns between the end of one message and the start of the next
    uint8_t     _zoneEffect;    // bit mapped zone effects
    uint8_t     _intensity;     // display intensity

	void		setInitialConditions(void);	// set up initial conditions for an effect
	uint16_t	getTextWidth(char *p);		// width of text in columns
	bool		calcTextLimits(char *p);	// calculate the right and left limits for the text

	// Variables used in the scrolling routines
	uint8_t		_zoneStart;		// First zone module number
	uint8_t		_zoneEnd;		// Last zone module number
	int16_t		_nextPos;		// Next position for animation. Can be used in several different ways depending on the function.
	int8_t		_posOffset;		// Looping increment depends on the direction of the scan for animation
	uint16_t	_startPos;		// Start position for the text LED
	int16_t		_endPos;		// End limit for the text LED.

	void		setInitialEffectConditions(void);	// set the initial conditions for loops in the FSM

	// Character buffer handling data and methods
	char		*_pText;		// pointer to text buffer from user call
	char		*_pCurChar;		// the current character being processed in the text
	bool		_endOfText;		// true when the end of the text string has been reached.
	void		moveTextPointer(void);	// move the text pointer depending on direction of buffer scan

	uint8_t		getFirstChar(void);	// put the first Text char into the char buffer
	uint8_t		getNextChar(void);	// put the next Text char into the char buffer

	// Font character handling data and methods
	charDef		*_userChars;	// the root of the list of user defined characters
	uint8_t		_cBuf[15];		// buffer for loading character font
	uint8_t		_charSpacing;	// spacing in columns between characters
	uint8_t		_charCols;		// number of columns for this character
	int16_t		_countCols;		// count of number of columns already shown
	MD_MAX72XX::fontType_t *_fontDef;	// font for this zone

	uint8_t		findChar(uint8_t code, uint8_t size, uint8_t *cBuf);	// look for user defined character
	uint8_t		makeChar(char c);	// load a character bitmap and add in trailing _charSpacing blanks
	void  		reverseBuf(uint8_t *p, uint8_t size);	// reverse the elements of the buffer
	void  		invertBuf(uint8_t *p, uint8_t size);	// invert the elements of the buffer

	// Effect functions
	void	commonPrint(void);
	void	effectPrint(bool bIn);
//#if ENA_MISC
    void	effectSlice(bool bIn);
    void    effectMesh(bool bIn);
    void    effectFade(bool bIn);
    void	effectBlinds(bool bIn);
    void	effectDissolve(bool bIn);
//#endif // ENA_MISC
//#if ENA_WIPE
	void	effectWipe(bool bLightBar, bool bIn);
//#endif
//#if ENA_OPNCLS
	void	effectOpen(bool bLightBar, bool bIn);
	void	effectClose(bool bLightBar, bool bIn);
//#endif // ENA_OPNCLS
//#if ENA_SCR_STR
    void	effectVScroll(bool bUp, bool bIn);
    void	effectHScroll(bool bLeft, bool bIn);
//#endif // ENA_SCR_STR
//#if ENA_SCR_DIA
    void	effectDiag(bool bUp, bool bLeft, bool bIn);
//#endif // ENA_SCR_DIA
//#if ENA_SCAN
	void	effectHScan(bool bIn);
	void	effectVScan(bool bIn);
//#endif // ENA_SCAN
//#if ENA_GROW
    void	effectGrow(bool bUp, bool bIn);
//#endif // ENA_GROW
};


/**
 * Core object for the Parola library.
 * This class contains one or more zones for display.
 */
class MD_Parola 
{
public:
  /** 
   * Class Constructor - arbitrary output pins.
   *
   * Instantiate a new instance of the class. The parameters passed are used to 
   * connect the software to the hardware using the MD_MAX72XX class.
   * 
   * See documentation for the MD_MAX72XX library for detailed explanation of parameters.
   * 
   * \param dataPin		output on the Arduino where data gets shifted out.
   * \param clkPin		output for the clock signal.
   * \param csPin		output for selecting the device.
   * \param numDevices	number of devices connected. Default is 1 if not supplied. 
   */
	MD_Parola(uint8_t dataPin, uint8_t clkPin, uint8_t csPin, uint8_t numDevices=1);

  /** 
   * Class Constructor - SPI hardware interface.
   *
   * Instantiate a new instance of the class. The parameters passed are used to 
   * connect the software to the hardware using the MD_MAX72XX class.
   * 
   * See documentation for the MD_MAX72XX library for detailed explanation of parameters.
   * 
   * \param csPin		output for selecting the device.
   * \param numDevices	number of devices connected. Default is 1 if not supplied. 
   */
	MD_Parola(uint8_t csPin, uint8_t numDevices=1);

  /** 
   * Initialize the object.
   *
   * Initialise the object data. This needs to be called during setup() to initialise new 
   * data for the class that cannot be done during the object creation. This form of the
   * method is for backward compatibility and creates one zone for the entire display.
   */
  void begin(void) { begin(1); };

  /** 
   * Initialize the object.
   *
   * Initialise the object data. This needs to be called during setup() to initialise new 
   * data for the class that cannot be done during the object creation. This form of the
   * method allows specifying the maximum number of zones. The limits for these need to be 
   * initialized separately using setZone().
   *
   * \param numZones	maximum number of zones [0..numZones]
   */
  void begin(uint8_t numZones);

  /** 
   * Class Destructor.
   *
   * Release allocated memory and does the necessary to clean up once the object is
   * no longer required.
   */
	~MD_Parola(void);

  //--------------------------------------------------------------
  /** \name Methods for core object control.
   * @{
   */
  /** 
   * Animate the display.
   *
   * Animate all the zones in the display using the currently specified text and 
   * animation parameters. This method needs to be invoked as often as possible 
   * to ensure smooth animation. The animation is governed by a time tick that 
   * is set by the setSpeed() method and it will pause between entry and exit using 
   * the time set by the setPause() method.
   * 
   * The calling program should monitor the return value for 'true' in order to either
   * reset the zone animation or supply another string for display. A 'true' return 
   * value means that one or more zones have completed their animation.
   *
   * \return bool	true if at least one zone animation has completed, false otherwise.
   */
	bool displayAnimate(void);

  /** 
   * Get the completion status for a zone.
   *
   * This method is to determine which zone has completed when displayAnimate()
   * has returned a completion status.
   * 
   * The calling program should monitor the return value for 'true' in order to either
   * reset the zone animation or supply another string for display. A 'true' return 
   * value means that the zone has completed its animation cycle.
   *
   * \param z		specified zone
   * \return bool	true if the zone animation has completed, false otherwise.
   */
	inline bool getZoneStatus(uint8_t z) { if (z < _numZones) return(_Z[z].getStatus()); };

  /** 
   * Clear the display.
   *
   * Clear all the zones in the current display.
   * 
   * \return No return value.
   */
	inline void displayClear(void) { for (uint8_t i=0; i<_numZones; i++) _Z[i].zoneClear(); };

  /** 
   * Clear one zone in the display.
   *
   * Clear the specified zone in the current display.
   * 
   * \param z		specified zone
   * \return No return value.
   */
	inline void displayClear(uint8_t z) { if (z < _numZones) _Z[z].zoneClear(); };

  /**
   * Reset the current animation to restart for all zones.
   *
   * This method is used to reset all the zone animations an animation back to the start 
   * of their cycle current cycle.
   * It is normally invoked after all the parameters for a display are set and the 
   * animation needs to be started (or restarted).
   *
   * \return No return value.
   */
	inline void displayReset(void) { for (uint8_t i=0; i<_numZones; i++) _Z[i].zoneReset(); }; 

  /**
   * Reset the current animation to restart for the specified zone.
   *
   * See the comments for the 'all zones' variant of this method.
   *
   * \param z	specified zone
   * \return No return value.
   */
	inline void displayReset(uint8_t z) { if (z < _numZones) _Z[z].zoneReset(); }; 

   /** 
   * Suspend or resume display updates.
   *
   * Stop the current display animation. When pausing it leaves the 
   * display showing the current text. Resuming will restart the animation where 
   * it left off. To reset the animation back to the beginning, use the 
   * displayReset() method.
   * 
   * \param b	boolean value to suspend (true) or resume (false).
   * \return No return value.
   */
	inline void displaySuspend(bool b) { for (uint8_t i=0; i<_numZones; i++) _Z[i].zoneSuspend(b); };

  /**
   * Define the module limits for a zone.
   *
   * When multiple zones are defined, the library needs to know the contiguous module
   * ranges that make up the different zones. If the library has been started with only 
   * one zone then it will automatically initialize the zone to be the entire range for 
   * the display modules, so calling this function is not required.
   *
   * A module is a unit of 8x8 LEDs, as defined in the MD_MAX72xx library. 
   * Zones should not overlap or unexpected results will occur.
   *
   * \param z		zone number.
   * \param moduleStart	the first module number for the zone [0..numZones-1].
   * \param moduleEnd	the last module number for the zone [0..numZones-1].
   * \return true if set, false otherwise.
   */
	bool setZone(uint8_t z, uint8_t moduleStart, uint8_t moduleEnd);

  /** @} */
  //--------------------------------------------------------------
  /** \name Methods for quick start displays.
   * @{
   */
  /**
   * Easy start for a scrolling text display.
   *
   * This method is a convenient way to set up a scrolling display. All the data
   * necessary for setup is passed through as parameters and the display animation
   * is started. Assumes one zone only (zone 0).
   *
   * \param pText	parameter suitable for the setTextBuffer() method.
   * \param align	parameter suitable for the the setTextAlignment() method.
   * \param effect	parameter suitable for the the setTextEffect() method.
   * \param speed	parameter suitable for the setSpeed() method.
   * \return No return value.
   */
	inline void displayScroll(char *pText, textPosition_t align, textEffect_t effect, uint16_t speed)
		{ displayZoneText(0, pText, align, speed, 0, effect, effect); };

 /**
   * Easy start for a non-scrolling text display.
   *
   * This method is a convenient way to set up a static text display. All the data
   * necessary for setup is passed through as parameters and the display animation
   * is started. Assumes one zone only (zone 0).
   *
   * \param pText	parameter suitable for the setTextBuffer() method.
   * \param align	parameter suitable for the the setTextAlignment() method.
   * \param speed	parameter suitable for the setSpeed() method.
   * \param pause	parameter suitable for the setPause() method.
   * \param	effectIn	parameter suitable for the setTextEffect() method.
   * \param	effectOut	parameter suitable for the setTextEffect() method.
   * \return No return value.
   */
	inline void displayText(char *pText, textPosition_t align, uint16_t speed, uint16_t pause, textEffect_t effectIn, textEffect_t effectOut = NO_EFFECT)
		{ displayZoneText(0, pText, align, speed, pause, effectIn, effectOut); };
	
 /**
   * Easy start for a non-scrolling zone text display.
   *
   * This method is a convenient way to set up a static text display within the 
   * specified zone. All the data necessary for setup is passed through as 
   * parameters and the display animation is started.
   *
   * \param z		zone specified.
   * \param pText	parameter suitable for the setTextBuffer() method.
   * \param align	parameter suitable for the the setTextAlignment() method.
   * \param speed	parameter suitable for the setSpeed() method.
   * \param pause	parameter suitable for the setPause() method.
   * \param	effectIn	parameter suitable for the setTextEffect() method.
   * \param	effectOut	parameter suitable for the setTextEffect() method.
   * \return No return value.
   */
	void displayZoneText(uint8_t z, char *pText, textPosition_t align, uint16_t speed, uint16_t pause, textEffect_t effectIn, textEffect_t effectOut = NO_EFFECT);
	
  /** @} */
  //--------------------------------------------------------------
  /** \name Support methods for visually adjusting the display.
   * @{
   */

  /** 
   * Get the inter-character spacing in columns.
   * 
   * \return the current setting for the space between characters in columns. Assumes one zone only.
   */
	inline uint8_t getCharSpacing(void) { return _Z[0].getCharSpacing(); };

  /** 
   * Get the inter-character spacing in columns for a specific zone.
   * 
   * \param z		zone number.
   * \return the current setting for the space between characters in columns.
   */
	inline uint8_t getCharSpacing(uint8_t z) { return (z < _numZones ? _Z[z].getCharSpacing() : 0); };

  /** 
   * Get the current display invert state.
   * 
   * See the setInvert() method. 
   *
   * \return true if the display is inverted. Assumes one zone only.
   */
	inline bool getInvert(void) { return _Z[0].getInvert(); };

  /** 
   * Get the current display invert state for a specific zone.
   * 
   * See the setInvert() method.
   *
   * \param z		zone number.
   * \return the inverted boolean value for the specified zone.
   */
	inline bool getInvert(uint8_t z) { return (z < _numZones ? _Z[z].getInvert() : false); };

  /** 
   * Get the current pause time.
   * 
   * See the setPause() method. Assumes one zone only.
   *
   * \return the pause value in milliseconds.
   */
	inline uint16_t getPause(void) { return _Z[0].getPause(); };

  /** 
   * Get the current pause time for a specific zone.
   * 
   * See the setPause() method.
   *
   * \param z		zone number.
   * \return the pause value in milliseconds for the specified zone.
   */
	inline uint16_t getPause(uint8_t z) { return (z < _numZones ? _Z[z].getPause() : 0); };

  /** 
   * Get the horizontal scrolling spacing.
   * 
   * See the setScrollSpacing() method. Assumes one zone only
   * 
   * \return the speed value.
   */
	inline uint16_t getScrollSpacing(void) { return _Z[0].getScrollSpacing(); };

  /** 
   * Get the current animation speed.
   * 
   * See the setSpeed() method. Assumes one zone only
   * 
   * \return the speed value.
   */
	inline uint16_t getSpeed(void) { return _Z[0].getSpeed(); };

  /** 
   * Get the current animation speed for the specified zone.
   * 
   * See the setSpeed() method.
   * 
   * \param z		zone number.
   * \return the speed value for the specified zone.
   */
	inline uint16_t getSpeed(uint8_t z) { return (z < _numZones ? _Z[z].getSpeed() : 0); };

 /** 
   * Get the current text alignment specification.
   *
   * Assumes one zone only.
   * 
   * \return the current text alignment setting.
   */
	inline textPosition_t getTextAlignment(void) { return _Z[0].getTextAlignment(); };

 /** 
   * Get the current text alignment specification for the specified zone.
   *
   * \param z		zone number.
   * \return the current text alignment setting for the specified zone.
   */
	inline textPosition_t getTextAlignment(uint8_t z) { return (z < _numZones ? _Z[z].getTextAlignment() : CENTER); };
  
 /** 
   * Get the value of specified display effect.
   *
   * The display effect is one of the zoneEffect_t types. The returned value will be 
   * true if the attribute is set, false if the attribute is not set.
   * 
   * \param z   zone number.
   * \param ze  the required text alignment.
   * \return true if the value is set, false otherwise.
   */
  inline boolean getZoneEffect(uint8_t z, zoneEffect_t ze) { if (z < _numZones) return(_Z[z].getZoneEffect(ze)); };

  /** 
   * Set the inter-character spacing in columns for all zones.
   * 
   * Set the number of blank columns between characters when they are displayed.
   * 
   * \param cs	space between characters in columns.
   * \return No return value.
   */
	inline void setCharSpacing(uint8_t cs) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setCharSpacing(cs); };

  /** 
   * Set the inter-character spacing in columns for the specified zone.
   * 
   * See comments for the 'all zones' variant of this method.
   *
   * \param z	zone number.
   * \param cs	space between characters in columns.
   * \return No return value.
   */
	inline void setCharSpacing(uint8_t z, uint8_t cs) { if (z < _numZones) _Z[z].setCharSpacing(cs); };

  /** 
   * Set the display brightness for all the zones.
   * 
   * Set the intensity (brightness) of the display.
   * 
   * \param intensity	the intensity to set the display (0-15).
   * \return No return value.
   */
	inline void setIntensity(uint8_t intensity) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setIntensity(intensity); };

  /** 
   * Set the display brightness for the specified zone.
   * 
   * See comments for the 'all zones' variant of this method.
   *
   * \param z			zone number.
   * \param intensity	the intensity to set the display (0-15).
   * \return No return value.
   */
	inline void setIntensity(uint8_t z, uint8_t intensity) { if (z < _numZones) _Z[z].setIntensity(intensity); };

  /** 
   * Invert the display in all the zones.
   * 
   * Set the display to inverted (ON LED turns OFF and vice versa).
   * 
   * \param invert	true for inverted display, false for normal display
   * \return No return value.
   */
	inline void setInvert(uint8_t invert) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setInvert(invert); };

  /** 
   * Invert the display in the specified zone.
   * 
   * See comments for the 'all zones' variant of this method.
   *
   * \param z		zone number.
   * \param invert	true for inverted display, false for normal display
   * \return No return value.
   */
	inline void setInvert(uint8_t z, uint8_t invert) { if (z < _numZones) _Z[z].setInvert(invert); };

  /** 
   * Set the pause between ENTER and EXIT animations for all zones.
   * 
   * Between each entry and exit, the library will pause by the number of milliseconds
   * specified to allow the viewer to read the message. For continuous scrolling displays
   * this should be set to the same value as the display speed.
   *
   * \param pause	the time, in milliseconds, between animations.
   * \return No return value.
   */
	inline void setPause(uint16_t pause) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setPause(pause); };

  /** 
   * Set the pause between ENTER and EXIT animations for the specified zone.
   * 
   * See comments for the 'all zones' variant of this method.
   *
   * \param z		zone number.
   * \param pause	the time, in milliseconds, between animations.
   * \return No return value.
   */
	inline void setPause(uint8_t z, uint16_t pause) { if (z < _numZones) _Z[z].setPause(pause); };

  /** 
   * Set the horizontal scrolling distance between messages for all the zones.
   *
   * When scrolling horizontally, the distance between the end of one message and the
   * start of the next can be set using this method. Default behavior is for the message
   * to be fully off the display before the new message starts. 
   * Set to zero for default behavior.
   *
   * \param space	the spacing, in columns, between messages; zero for default behaviour..
   * \return No return value.
   */
	inline void setScrollSpacing(uint16_t space) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setScrollSpacing(space); };

  /** 
   * Set the animation frame speed for all zones.
   * 
   * The speed of the display is the 'tick' time between animation frames. The lower this time 
   * the faster the animation; set it to zero to run as fast as possible.
   * 
   * \param speed	the time, in milliseconds, between animation frames.
   * \return No return value.
   */
	inline void setSpeed(uint16_t speed) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setSpeed(speed); };

  /** 
   * Set the animation frame speed for the specified zone.
   * 
   * See comments for the 'all zones' variant of this method.
   *
   * \param z		zone number.
   * \param speed	the time, in milliseconds, between animation frames.
   * \return No return value.
   */
	inline void setSpeed(uint8_t z, uint16_t speed) { if (z < _numZones) _Z[z].setSpeed(speed); };

  /** 
   * Set the text alignment for all zones.
   *
   * Text alignment is specified as one of the values in textPosition_t.
   * 
   * \param ta	the required text alignment.
   * \return No return value.
   */
	inline void setTextAlignment(textPosition_t ta) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setTextAlignment(ta); };

  /** 
   * Set the text alignment for the specified zone.
   *
   * See comments for the 'all zones' variant of this method.
   * 
   * \param z	zone number.
   * \param ta	the required text alignment.
   * \return No return value.
   */
	inline void setTextAlignment(uint8_t z, textPosition_t ta) { if (z < _numZones) _Z[z].setTextAlignment(ta); };

  /** 
   * Set the pointer to the text buffer (single zone display).
   *
   * Sets the text buffer to be a pointer to user data. The library does not allocate
   * any memory for the text message, rather it is the calling program that supplies
   * a pointer to a buffer. This reduces memory requirements and offers the flexibility 
   * to keep a single buffer or rotate buffers with different messages, all under calling
   * program control, with no library limit to the size or numbers of buffers. The text 
   * placed in the buffer must be properly terminated by the NUL ('\0') character or 
   * processing will overrun the end of the message.
   *
   * This form of the method assumes one zone only.
   * 
   * \param pb	pointer to the text buffer to be used.
   * \return No return value.
   */
	inline void setTextBuffer(char *pb) { _Z[0].setTextBuffer(pb); };

  /** 
   * Set the pointer to the text buffer for the specified zone.
   *
   * See comments for the single zone version of this method.
   *
   * \param z	zone number.
   * \param pb	pointer to the text buffer to be used.
   * \return No return value.
   */
	inline void setTextBuffer(uint8_t z, char *pb) { if (z < _numZones) _Z[z].setTextBuffer(pb); };

  /**
   * Set the entry and exit text effects for all zones.
   *
   * The 'in' and 'out' text effects are specified using the textEffect_t enumerated 
   * type. If no effect is required, NO_EFFECT should be specified. NO_EFFECT 
   * is most useful when no exit effect is required (e.g., when DISSOLVE is used) and
   * the entry effect is sufficient.
   *
   * \param	effectIn	the entry effect, one of the textEffect_t enumerated values.
   * \param	effectOut	the exit effect, one of the textEffect_t enumerated values.
   * \return No return value.
   */
	inline void setTextEffect(textEffect_t effectIn, textEffect_t effectOut) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setTextEffect(effectIn, effectOut); };

  /**
   * Set the entry and exit text effects for a specific zone.
   *
   * See comments for the 'all zones' variant of this method.
   *
   * \param z			zone number.
   * \param	effectIn	the entry effect, one of the textEffect_t enumerated values.
   * \param	effectOut	the exit effect, one of the textEffect_t enumerated values.
   * \return No return value.
   */
	inline void setTextEffect(uint8_t z, textEffect_t effectIn, textEffect_t effectOut) { if (z < _numZones) _Z[z].setTextEffect(effectIn, effectOut); };
 
  /** 
   * Set the display effect for the specified zone.
   *
   * The display effect is one of the zoneEffect_t types, and this will be set (true) or 
   * reset (false) depending on the boolean value. The resulting zone display will be
   * modified as per the required effect.
   * 
   * \param z   zone number.
   * \param b   set the value if true, reset the value if false
   * \param ze  the required text alignment.
   * \return No return value.
   */
  inline void setZoneEffect(uint8_t z, boolean b, zoneEffect_t ze) { if (z < _numZones) _Z[z].setZoneEffect(b, ze); };

  /**
  * Synchronise the start of zone animations.
  *
  * When zones are set up, the animation start time will default
  * to the set-up time. If several zones need to be animated
  * in synchronised fashion (eg, they are visually stacked vertically),
  * this method will ensure that all the zones start at the same instant.
  *
  * \return No return value.
  */
  inline void synchZoneStart(void) { for (uint8_t i = 1; i < _numZones; i++) _Z[i].setSynchTime(_Z[0].getSynchTime()); }

/** @} */
  //--------------------------------------------------------------
  /** \name Support methods for fonts and characters.
   * @{
   */

  /** 
   * Add a user defined character to the replacement list for all zones.
   * 
   * Add a replacement characters to the user defined list. The character data must be 
   * the same as for a single character in the font definition file. If a character is 
   * specified with a code the same as an existing character the existing data will be 
   * substituted for the new data. A character code of 0 ('\0') is illegal as this 
   * denotes the end of string character for C++ and cannot be used in an actual string.
   * 
   * The library does not copy the data definition but only retains a pointer to the data,
   * so any changes to the data storage in the calling program will be reflected into the 
   * library. The data must also remain in scope while it is being used.
   * 
   * \param code	ASCII code for the character data.
   * \param data	pointer to the character data.
   * \return No return value.
   */
	void addChar(uint8_t code, uint8_t *data) { for (uint8_t i=0; i<_numZones; i++) _Z[i].addChar(code, data); };

  /** 
   * Add a user defined character to the replacement specified zone.
   * 
   * See the comments for the 'all zones' variant of this method
   * 
   * \param z		zone specified
   * \param code	ASCII code for the character data.
   * \param data	pointer to the character data.
   * \return true of the character was inserted in the substitution list.
   */
	bool addChar(uint8_t z, uint8_t code, uint8_t *data) { if (z < _numZones) return(_Z[z].addChar(code, data)); };

  /** 
   * Delete a user defined character to the replacement list for all zones.
   * 
   * Delete a reference to a replacement character in the user defined list.
   * 
   * \param code	ASCII code for the character data.
   * \return No return value.
   */
	void delChar(uint8_t code) { for (uint8_t i=0; i<_numZones; i++) _Z[i].delChar(code); };

  /** 
   * Delete a user defined character to the replacement list for the specified zone.
   * 
   * See the comments for the 'all zones' variant of this method.
   *
   * \param z		zone specified
   * \param code	ASCII code for the character data.
   * \return true of the character was found in the substitution list.
   */
	bool delChar(uint8_t z, uint8_t code) { if (z < _numZones) return(_Z[z].delChar(code)); };

  /** 
   * Set the display font for all zones.
   * 
   * Set the display font to a user defined font table. This can be created using the 
   * MD_MAX72xx font builder (refer to documentation for the tool and the MD_MAX72xx library).
   * Passing NULL resets to the library default font. 
   * 
   * \param fontDef	Pointer to the font definition to be used.
   * \return No return value.
   */
	inline void setFont(MD_MAX72XX::fontType_t *fontDef) { for (uint8_t i=0; i<_numZones; i++) _Z[i].setZoneFont(fontDef); };

  /** 
   * Set the display font for a specific zone.
   * 
   * Set the display font to a user defined font table. This can be created using the 
   * MD_MAX72xx font builder (refer to documentation for the tool and the MD_MAX72xx library).
   * Passing NULL resets to the library default font. 
   * 
   * \param z		specified zone.
   * \param fontDef	Pointer to the font definition to be used.
   * \return No return value.
   */
	inline void setFont(uint8_t z, MD_MAX72XX::fontType_t *fontDef) { if (z < _numZones) _Z[z].setZoneFont(fontDef); };

  /** @} */

  private:
	// The display hardware controlled by this library
	MD_MAX72XX	_D;			///< Hardware library object
	MD_PZone	*_Z;		  ///< Array to be allocated during begin()
	uint8_t		_numModules;///< Number of display modules [0..numModules-1]
	uint8_t		_numZones;	///< Max number of zones in the display [0..numZones-1]
};


#endif
